JP4171114B2 - Belt conveyor, conveyor belt core inspection apparatus, and conveyor belt core inspection method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a belt conveyor, a conveyor belt core inspection apparatus, and a conveyor belt core inspection method that can easily and reliably inspect and detect damage to a core embedded in a conveyor belt.
[0002]
[Prior art]
In general, the belt conveyor is capable of transporting an object to be transported by rotating an endless transport belt supported by a plurality of rotatable support rollers.
[0003]
Such a conveyor belt has a rubber structure such as a structure in which a plurality of steel cords are embedded as a core in the rubber layer in the running direction of the belt, or a sheet-like reinforcing cloth is embedded in the rubber layer as a core. A structure in which a core is embedded in the layer is used.
[0004]
By the way, when the embedded core body is damaged, the conveyor belt cannot sufficiently support the tension acting on the conveyor belt. Therefore, if the conveyor belt is run in a damaged state, the conveyor belt is not transported. The belt may break.
[0005]
Conventionally, in order to prevent such inadvertent cutting of the belt, (1) to estimate the damaged part of the core body by detecting the cracked, swollen, and peeled portions of the rubber layer. (2) Conveying belt Inspect the conveyor belt by methods such as detecting the meandering part of the core and estimating the damaged part of the core, and (3) detecting the abnormal extension of the conveyor belt and estimating the damaged part of the core. Early detection of damaged parts of the core has been carried out.
[0006]
[Problems to be solved by the invention]
However, in these inspection methods, since the inspector visually determines the appearance of the transport belt, for example, when the transport belt is relatively long, not only the inspection work is complicated, Since the entire length of the belt is not visible, there is a possibility that a damaged part may be overlooked.
In addition, it depends greatly on the ability of the inspector, and it is not possible for anyone to find the damaged part of the belt with certainty.
[0007]
In this regard, a method for inspecting the core body by irradiating the conveyor belt with X-rays is known, but this method cannot be used when the core body is a reinforcing cloth, and is a general-purpose method. I can't say that.
[0008]
SUMMARY OF THE INVENTION In view of the above problems, the present invention provides a belt conveyor and a conveyor belt core body inspection device that can easily inspect a core body of a conveyor belt and reliably find a damaged portion regardless of the type of the core body. It is another object of the present invention to provide a damage inspection method for a conveyor belt.
[0009]
[Means for Solving the Problems]
The present invention has been made to solve the above-mentioned problems. The first means thereof is a belt conveyor, and a plurality of rows of conveying belts 2 in which cores 6 are embedded are arranged in the running direction of the conveying belt 2. What is the direction in which the support rollers 3, 3 support between the support rollers 3, 3 arranged in the running direction of the conveyor belt 2 in a belt conveyor that is supported by the provided support rollers 3 and can travel. In the opposite direction, a pressing body 8 that presses one surface of the transport belt 2 is provided, and the pressing body 8 is provided with a load detection body 10 that detects a repulsive load from the transport belt 2.
[0010]
Since the belt conveyor is provided with a pressing body 8 that presses one surface of the conveyor belt 2, a repulsive force is applied to the pressing body 8 from the conveyor belt 2. Since the load detector 10 for detecting the repulsive load from 2 is provided, the load detector 10 can detect the repulsive force received by the pressing body 8 as the repulsive load.
[0011]
With respect to such a belt conveyor, when the conveyor belt 2 is run with one surface of the conveyor belt 2 being pressed by the pressing body 8, the repulsive load from the conveyor belt 2 applied to the pressing body 8 can be detected continuously. it can.
[0012]
That is, as according to claim 3, core and 6 is buried, presses the one surface of the conveyor belt 2 in the direction of travel is supported by a plurality arrayed by a support roller 3 at the pressing body 8, moreover The transport belt 2 is caused to travel in a state where the support rollers 3 and 3 arranged in the travel direction of the transport belt 2 are pressed in the direction opposite to the direction in which the support rollers 3 and 3 support. If the repulsive load from the conveyor belt 2 applied to the body 8 is continuously detected, the detected repulsive load exhibits a substantially constant value when there is no abnormality such as damage to the core body 6 of the conveyor belt 2. When there is an abnormality such as damage to the core body 6 of the conveyor belt 2, the portion is weaker than the portion where the repulsive force in the running direction of the conveyor belt 2 is normal, and thus the detected repulsive load value decreases.
[0013]
As described above, according to the core inspection method in which the conveyor belt 2 is run, the repulsive load is continuously detected and the change in the repulsive load is measured, the damaged portion of the core 6 of the conveyor belt 2 is easily and reliably damaged. Can be found.
[0014]
Further, as described in claim 2, the conveyor belt 2 in which the core body 6 is embedded is mounted on the belt conveyor 1 that can travel by being supported by a plurality of support rollers 3 arranged in the traveling direction of the conveyor belt 2. It is a possible core inspection device, wherein the support belts 3, 3 arranged in the running direction of the transport belt 2 are arranged in the direction opposite to the direction in which the support rollers 3, 3 support . According to the core inspection apparatus including the pressing body 8 capable of pressing one surface and the load detection body 10 capable of detecting the repulsive load applied to the pressing body 8 from the conveyor belt 2, not only a novel belt conveyor The belt belt can be installed on an existing belt conveyor, and damage to the core body 6 of the transport belt 2 can be easily and reliably detected.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a reference diagram showing an outline of a belt conveyor and a core body inspection apparatus according to the present invention, and FIG. 2 is a cross-sectional view showing a state cut along a line AA in FIG. The configuration is shown more specifically.
[0016]
1 and 2, reference numeral 1 denotes a belt conveyor capable of rotating while an endless conveyance belt 2 is supported by a support roller 3.
The conveyor belt 2 has a structure in which a core body 6 such as a steel cord or a reinforcing cloth is embedded in the running direction Y inside a rubber layer 5.
[0017]
The support roller 3 includes a roller portion 3b rotatably attached to a bracket 3a fixed to the base 7 of the belt conveyor 1, and is in contact with the lower surface 2b (other surface 2b) of the transport belt 2.
[0018]
A plurality of (for example, three) support rollers 3 arranged side by side in the width direction X of the transport belt 2 form a set, and a plurality of support rollers 3 are arranged in the running direction Y of the transport belt 2.
Of the plurality of support rollers 3 arranged in parallel in the width direction X, the support roller 3 located outside has a rotation center axis M so that the cross section in the width direction X of the transport belt 2 is a trough type. Inclined inside.
[0019]
Further, the upper surface 2a (one surface 2a) of the conveyor belt 2 has a pressing body 8 that presses the conveyor belt 2 and a load detector 10 that detects a repulsive load from the conveyor belt 2 applied to the pressing body 8. The body inspection apparatus 11 is equipped.
[0020]
Specifically, the pressing body 8 includes a rotatable roller 14 pivotally supported by the bracket 12, and the roller 14 of the pressing body 8 is conveyed between the support rollers 3 and 3 arranged in the running direction Y. The upper surface 2a of the belt 2 is provided so as to be pressed to such an extent that the stretched conveying belt 2 is bent.
[0021]
That is, a pressing force comprising a rotatable cylindrical roller 14 on the upper surface 2a of the conveying belt 2 that does not have an abutment such as the support roller 3 on the lower surface 2b (the other surface 2b is on one surface 2a of the conveying belt 2 that is free). The body 8 is pressed, and the conveyor belt 2 is bent downward by the pressing of the pressing body 8.
[0022]
More specifically, one pressing roller 8 is provided between the support rollers 3 and 3 in a row in the running direction Y, and accordingly, a set of juxtaposed pairs in the width direction X of the conveyor belt 2. Three pressing bodies 8 are arranged side by side corresponding to (three) support rollers 3.
[0023]
Of the pressing bodies 8 arranged side by side, for example, the pressing body 8 located outside is provided with its rotation center axis N inclined outward from the rotation center axis M of the corresponding support roller 3. Yes.
Thus, by making the rotation center axis N of the pressing body 8 non-parallel to the rotation center axis M of the corresponding support roller 3, the one surface 2 a of the transport belt 2 is partially pressed strongly (a press located outside). When the rotation center axis N of the body 8 is inclined outward from the rotation center axis M of the support roller 3, the ear portion of the transport belt 2 is strongly pressed), and therefore the strongly pressed portion is repelled. There is an advantage that the load can be detected more significantly by the load detector 10 described later.
[0024]
Further, a mounting member 16 is laid across the base 7 between the support rollers 3 and 3 in the traveling direction Y in the width direction X of the transport belt 2 and above the bracket 12 of the pressing body 8 on the mounting member 16. The pressing body 8 is provided by attaching the projecting leg portion 15.
[0025]
The pressing body 8 is attached so that the pressing force on the conveyor belt 2 can be adjusted (for example, the mounting position is adjusted by means such as attaching the leg portion 15 of the pressing body 8 to the mounting member 16 using a nut or the like). Can be possible).
[0026]
Further, the pressing body 8 is provided with a load cell 10 as a load detection body.
The load cell 10 is interposed between the bracket 12 and the leg portion 15. For example, a plurality of (two) load cells 10 are provided on one pressing body 8.
Note that a single load cell 10 may be provided for one pressing body 8.
A load cell amplifier 18 is connected to the load cell 10, and a pen recorder 19 is connected to the amplifier 18 (the load cell amplifier 18 and the pen recorder 19 are respectively connected to one pressing body 8. Although connected, all the load cell amplifiers 18 and the pen recorder 19 are not shown in FIG. 1).
[0027]
With this configuration, the repulsive load applied to the pressing body 8 from the pressed conveying belt 2 is amplified by the load cell amplifier 18 via the load cell 10 and displayed on the pen recorder 19.
When a plurality of load cells 10 are provided in one pressing body 8 and one load cell amplifier 18 is provided for the plurality of load cells 10, the pen recorder 19 displays an average value. .
[0028]
Next, the core inspection method for the conveyor belt according to the present invention will be described.
When the surface 2a of the conveyor belt 2 is pressed by the pressing body 8 as described above, the conveyor belt 2 applies a repulsive force to the pressing body 8, and the repulsive force causes distortion in the load cell 10 that is a load detection body. The repulsive load is displayed on the pen recorder 19 via the amplifier 18.
[0029]
When the conveyor belt 2 of the belt conveyor 1 is run, the repulsive load applied to the pressing body 8 is continuously detected and displayed on the pen recorder 19.
[0030]
If there is no abnormality such as damage to the core body 6 of the conveyor belt 2, the conveyor belt 2 applies a substantially constant repulsive force to the pressing body 8. Therefore, the repulsive load detected by the load detecting body 10 of the pressing body 8 is It shows a substantially constant value over time (shown in the graph of FIG. 3).
On the other hand, if there is a portion where there is an abnormality such as damage to the core body 6 of the conveyor belt 2, that portion is weaker than the portion where the repulsive force in the running direction Y of the conveyor belt 2 is normal. The load decreases (point Z in FIG. 3).
[0031]
In this way, the damaged portion of the core body 6 of the conveyor belt 2 can be easily and reliably found by running the conveyor belt 2 and continuously detecting the repulsive load and measuring the change in the repulsive load. .
[0032]
That is, if a decrease in the repulsive load is detected after a predetermined time (after the predetermined traveling distance of the conveyor belt 2) from the detection start point of the repulsive load of the conveyor belt 2, the core 6 embedded in the portion is damaged. It is estimated that
[0033]
However, although the repulsive load may decrease due to the meandering of the conveyor belt 2 or the wear of the rubber layer 5, the present invention is also meaningful in that the damaged portion of the embedded core body 6 can be narrowed down. The meandering of the conveyor belt 2 can be determined visually while the belt is running.
Further, the wear or the like of the rubber layer 5 can be determined by measuring the rubber thickness of the narrowed down portion at the time of stopping.
[0034]
Moreover, according to this invention, even when the core body 6 is a reinforcement cloth, a damage location can be detected and it can utilize universally irrespective of the kind of core body.
[0035]
In the above embodiment, the trough type belt conveyor is exemplified. However, for example, a flat belt conveyor or a so-called pipe that conveys an object to be conveyed such as a granular material by forming a conveying belt in a pipe shape. It can be applied to a conveyor or the like, and the type of belt conveyor is not limited.
[0036]
Therefore, the rotation center axis M of the support roller 3 is not limited to the above embodiment, and the number of support rollers 3 provided in the width direction X of the conveyor belt 2 is 3 as in the above embodiment. For example, as shown in FIG. 4 (a), the number of support rollers 3 may be one, or a number such as six may be used although not particularly illustrated.
[0037]
Furthermore, in the said embodiment, although the press body 8 is pressing the upper surface 2a of the conveyance belt 2, it is provided so that the lower surface 2b of the conveyance belt 2 may be pressed as shown in FIG. Also good.
The pressing body 8 should just be provided so that the one surface side of the conveyance belt 2 may be pressed.
[0038]
Moreover, in the said embodiment, although the press body 8 is arranged in multiple numbers (for example, 3 pieces), the press body 8 is not necessarily limited to a plurality (for example, 3 pieces), for example, FIG. The number may be one as shown in (a), or four or more as shown in FIG.
[0039]
However, as the plurality of pressing bodies 8 are provided, the width of the core body 6 that is pressed by one pressing body 8 becomes narrower, so that there is an advantage that the damaged portion of the core body 6 can be detected more accurately.
[0040]
Further, in the above-described embodiment, the pressing body 8 is composed of a cylindrical roller 14. For example, as shown in FIG. 5B, the pressing body 8 is formed by a spherical roller, a roller with a crown, or the like. It may be configured.
[0041]
Moreover, in the said embodiment, although one part of the press body 8 illustrated the structure provided by making the rotation center axis N incline from the rotation center axis M of the corresponding support roller 3, for example, As shown in FIG. 5 (c), all the pressing bodies 8 may be provided so as to be parallel to the rotation center axis M of the support roller 3.
[0042]
Furthermore, it does not necessarily have to be provided side by side in the width direction X of the conveyor belt 2. For example, even if a plurality of pressing bodies 8 are provided back and forth in the traveling direction Y as shown in FIG. Good.
The pressing body 8 can be arbitrarily provided at a location where the core body 6 is desired to be inspected.
[0043]
In addition, the design of the belt conveyor, the core body inspection apparatus, and the core body inspection method for the conveyor belt shown in the above embodiment can be appropriately changed within the scope intended by the present invention.
[0044]
【The invention's effect】
As described above, according to the belt conveyor and the conveyor belt core inspection method of the belt conveyor according to the present invention, as in the prior art, the inspector does not need to visually inspect the conveyor belt, and the embedded core body It is possible to easily and reliably find the damaged part.
Therefore, regardless of the ability of the inspector, a normal operator can inspect the core body, and the inspection work can be ensured and the burden can be reduced.
[0045]
Furthermore, since the damaged part of the core can be found regardless of the type of the core, it can be used for general purposes.
[0046]
Moreover, according to the core inspection apparatus according to the present invention, it is possible to provide a new or existing belt conveyor with the above-described effects.
[Brief description of the drawings]
FIG. 1 is a schematic perspective view showing an embodiment of a belt conveyor and a core inspection apparatus according to the present invention.
2 is a detailed cross-sectional view taken along line AA in FIG.
FIG. 3 is a reference schematic diagram showing a change in repulsive load detected by a load detector.
FIGS. 4A and 4B are schematic perspective views showing another embodiment of a belt conveyor and a core body inspection apparatus according to the present invention.
5A and 5B are detailed sectional views showing other embodiments of the belt conveyor and the core inspection apparatus according to the present invention.
FIG. 6 is a schematic perspective view showing another embodiment of the belt conveyor and the core inspection apparatus according to the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Belt conveyor, 2 ... Conveyor belt, 6 ... Core body, 8 ... Pressing body, 10 ... Load detection body

Claims (3)

In a belt conveyor capable of traveling with a conveyor belt (2) embedded with a core body (6) supported by a plurality of rows of support rollers (3) arranged in the traveling direction of the conveyor belt (2),
In the direction opposite to the direction in which the support rollers (3) and (3) support between the support rollers (3) and (3) arranged in the running direction of the transport belt (2), the transport belt (2 ) Is provided with a pressing body (8) for pressing one surface, and the pressing body (8) is provided with a load detection body (10) for detecting a repulsive load from the conveyor belt (2). And belt conveyor. The conveyor belt (2) in which the core body (6) is embedded is mounted on a belt conveyor (1) capable of traveling by being supported by support rollers (3) arranged in a plurality of rows in the traveling direction of the conveyor belt (2). A possible core inspection device,
In the direction opposite to the direction in which the support rollers (3) and (3) support between the support rollers (3) and (3) arranged in the running direction of the transport belt (2), the transport belt (2 ), And a load detecting body (10) capable of detecting a repulsive load from the conveying belt (2) applied to the pressing body (8). Conveyor belt core inspection device. Core (6) is embedded, presses the one surface of the conveyor belt in the direction of travel is supported by a plurality arrayed by a support roller (3) (2) at the pressing member (8), moreover, the The conveyance rollers (3) are arranged in the running direction of the conveyance belt (2), and the conveyance rollers (3) are pressed in a direction opposite to the direction supported by the support rollers (3) and (3). A method for inspecting a core of a conveyor belt of a belt conveyor, wherein the belt (2) travels and a repulsive load from the conveyor belt (2) applied to the pressing body (8) is continuously detected.

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